| Patent application number | Description | Published |
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| 20090017228 | APPARATUS AND METHOD FOR CENTERING A SUBSTRATE IN A PROCESS CHAMBER - The present invention comprises an apparatus and method for centering a substrate in a process chamber. In one embodiment, the apparatus comprises a substrate support having a support surface adapted to receive the placement of a substrate and a reference axis substantially perpendicular to the support surface, and a plurality of centering members extending above the support surface. Each centering member is biased into a first position and is movable to a second position by interacting with an opposing member. A movement between the first position and the second position thereby causes each centering member to releasably engage with a peripheral edge of the substrate to push the substrate in a direction toward the reference axis. | 01-15-2009 |
| 20090017635 | APPARATUS AND METHOD FOR PROCESSING A SUBSTRATE EDGE REGION - The present invention comprises an apparatus and method for etching at a substrate edge region. In one embodiment, the apparatus comprises a chamber having a process volume, a substrate support arranged inside the process volume and having a substrate support surface, a plasma generator coupled to the chamber and configured to supply an etching agent in a plasma phase to a peripheral region of the substrate support surface, and a gas delivery assembly coupled to a gas source for generating a radial gas flow over the substrate support surface from an approximately central region of the substrate support surface toward the peripheral region of the substrate support surface. | 01-15-2009 |
| 20090236214 | TUNABLE GROUND PLANES IN PLASMA CHAMBERS - An apparatus and method are provided for controlling the intensity and distribution of a plasma discharge in a plasma chamber. In one embodiment, a shaped electrode is embedded in a substrate support to provide an electric field with radial and axial components inside the chamber. In another embodiment, the face plate electrode of the showerhead assembly is divided into zones by isolators, enabling different voltages to be applied to the different zones. Additionally, one or more electrodes may be embedded in the chamber side walls. | 09-24-2009 |
| 20090314211 | BIG FOOT LIFT PIN - Embodiments described herein generally provide a lift pin assembly having increased wafer placement accuracy, repeatability, reliability, and corrosion resistance. In one embodiment, a lift pin assembly for positioning a substrate relative to a substrate support is provided. The lift pin assembly comprises a lift pin comprising a pin shaft, a pin head coupled with a first end of the pin shaft for supporting the substrate, and a shoulder coupled with a second end of the pin shaft. The lift pin assembly further comprises a cylindrical body slidably coupled with the pin shaft and a locking pin for preventing the cylindrical body from sliding along the shaft, wherein the shoulder has a through-hole dimensioned to accommodate the locking pin. | 12-24-2009 |
| 20100285240 | APPARATUS AND METHOD FOR EXPOSING A SUBSTRATE TO A ROTATING IRRADIANCE PATTERN OF UV RADIATION - Embodiments of the invention relate generally to an ultraviolet (UV) cure chamber for curing a dielectric material disposed on a substrate and to methods of curing dielectric materials using UV radiation. A substrate processing tool according to one embodiment comprises a body defining a substrate processing region; a substrate support adapted to support a substrate within the substrate processing region; an ultraviolet radiation lamp spaced apart from the substrate support, the lamp configured to transmit ultraviolet radiation to a substrate positioned on the substrate support; and a motor operatively coupled to rotate at least one of the ultraviolet radiation lamp or substrate support at least 180 degrees relative to each other. The substrate processing tool may further comprise one or more reflectors adapted to generate a flood pattern of ultraviolet radiation over the substrate that has complementary high and low intensity areas which combine to generate a substantially uniform irradiance pattern if rotated. Other embodiments are also disclosed. | 11-11-2010 |
| 20110034034 | DUAL TEMPERATURE HEATER - A method and apparatus for heating a substrate in a chamber are provided. an apparatus for positioning a substrate in a processing chamber. In one embodiment, the apparatus comprises a substrate support assembly having a support surface adapted to receive the substrate and a plurality of centering members for supporting the substrate at a distance parallel to the support surface and for centering the substrate relative to a reference axis substantially perpendicular to the support surface. The plurality of the centering members are movably disposed along a periphery of the support surface, and each of the plurality of centering members comprises a first end portion for either contacting or supporting a peripheral edge of the substrate. | 02-10-2011 |
| 20110147363 | MULTIFUNCTIONAL HEATER/CHILLER PEDESTAL FOR WIDE RANGE WAFER TEMPERATURE CONTROL - Embodiments of the invention generally relate to a semiconductor processing chamber and, more specifically, a heated support pedestal for a semiconductor processing chamber. In one embodiment, a pedestal for a semiconductor processing chamber is provided. The pedestal comprises a substrate support comprising a conductive material and having a support surface for receiving a substrate, a resistive heater encapsulated within the substrate support, a hollow shaft coupled to the substrate support at a first end and a mating interface at an opposing end, the hollow shaft comprising a shaft body having a hollow core, and a cooling channel assembly encircling the hollow core and disposed within the shaft body for removing heat from the pedestal via an internal cooling path, wherein the substrate support has a heat control gap positioned between the heating element and the ring-shaped cooling channel. | 06-23-2011 |
| 20110159211 | SHADOW RING FOR MODIFYING WAFER EDGE AND BEVEL DEPOSITION - Embodiments of the invention contemplate a shadow ring that provides increased or decreased and more uniform deposition on the edge of a wafer. By removing material from the top and/or bottom surfaces of the shadow ring, increased edge deposition and bevel coverage can be realized. In one embodiment, the material on the bottom surface is reduced by providing a recessed slot on the bottom surface. By increasing the amount of material of the shadow ring, the edge deposition and bevel coverage is reduced. Another approach to adjusting the deposition at the edge of the wafer includes increasing or decreasing the inner diameter of the shadow ring. The material forming the shadow ring may also be varied to change the amount of deposition at the edge of the wafer. | 06-30-2011 |
